. 2016 Apr 8;4(4):2325967116640263.

doi: 10.1177/2325967116640263. eCollection 2016 Apr.

Biomechanical Comparison of Parallel and Crossed Suture Repair for Longitudinal Meniscus Tears

Charles Milchteim¹, Eric A Branch¹, Ty Maughon¹, Jay Hughey¹, Adam W Anz¹

Affiliations

PMID: 27104209
PMCID: PMC4827117
DOI: 10.1177/2325967116640263

Biomechanical Comparison of Parallel and Crossed Suture Repair for Longitudinal Meniscus Tears

Charles Milchteim et al. Orthop J Sports Med. 2016.

. 2016 Apr 8;4(4):2325967116640263.

doi: 10.1177/2325967116640263. eCollection 2016 Apr.

Authors

Charles Milchteim¹, Eric A Branch¹, Ty Maughon¹, Jay Hughey¹, Adam W Anz¹

Affiliation

¹ Andrews Research and Education Foundation, Gulf Breeze, Florida, USA.

PMID: 27104209
PMCID: PMC4827117
DOI: 10.1177/2325967116640263

Abstract

Background: Longitudinal meniscus tears are commonly encountered in clinical practice. Meniscus repair devices have been previously tested and presented; however, prior studies have not evaluated repair construct designs head to head. This study compared a new-generation meniscus repair device, SpeedCinch, with a similar established device, Fast-Fix 360, and a parallel repair construct to a crossed construct. Both devices utilize self-adjusting No. 2-0 ultra-high molecular weight polyethylene (UHMWPE) and 2 polyether ether ketone (PEEK) anchors.

Hypothesis: Crossed suture repair constructs have higher failure loads and stiffness compared with simple parallel constructs. The newer repair device would exhibit similar performance to an established device.

Study design: Controlled laboratory study.

Methods: Sutures were placed in an open fashion into the body and posterior horn regions of the medial and lateral menisci in 16 cadaveric knees. Evaluation of 2 repair devices and 2 repair constructs created 4 groups: 2 parallel vertical sutures created with the Fast-Fix 360 (2PFF), 2 crossed vertical sutures created with the Fast-Fix 360 (2XFF), 2 parallel vertical sutures created with the SpeedCinch (2PSC), and 2 crossed vertical sutures created with the SpeedCinch (2XSC). After open placement of the repair construct, each meniscus was explanted and tested to failure on a uniaxial material testing machine. All data were checked for normality of distribution, and 1-way analysis of variance by ranks was chosen to evaluate for statistical significance of maximum failure load and stiffness between groups. Statistical significance was defined as P < .05.

Results: The mean maximum failure loads ± 95% CI (range) were 89.6 ± 16.3 N (125.7-47.8 N) (2PFF), 72.1 ± 11.7 N (103.4-47.6 N) (2XFF), 71.9 ± 15.5 N (109.4-41.3 N) (2PSC), and 79.5 ± 25.4 N (119.1-30.9 N) (2XSC). Interconstruct comparison revealed no statistical difference between all 4 constructs regarding maximum failure loads (P = .49). Stiffness values were also similar, with no statistical difference on comparison (P = .28).

Conclusion: Both devices in the current study had similar failure load and stiffness when 2 vertical or 2 crossed sutures were tested in cadaveric human menisci.

Clinical relevance: Simple parallel vertical sutures perform similarly to crossed suture patterns at the time of implantation.

Keywords: failure load; longitudinal tear; meniscus; repair.

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Conflict of interest statement

One or more of the authors has declared the following potential conflict of interest or source of funding: A.W.A. is a consultant for Ceterix Orthopaedics, Arthrex, and Smith & Nephew. Arthrex provided a grant for completion of this study, which provided for the cost of the cadavers. Implants were also provided by Arthrex and Smith & Nephew without charge.

Figures

**Figure 1.**
Meniscus repair constructs.

**Figure 2.**
Uniaxial testing construct.

See this image and copyright information in PMC

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Biomechanical Comparison of Parallel and Crossed Suture Repair for Longitudinal Meniscus Tears

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Biomechanical Comparison of Parallel and Crossed Suture Repair for Longitudinal Meniscus Tears

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